DE102004046925A1 - spring element - Google Patents

Abstract

A spring element, comprising an elastically deformable base body (1) with a receptacle (2) for coupling to a vibratory system, a support element (3) associated with the base body (1), wherein the support element (3) at least partially stabilizes the base body (1) and wherein the support element (3) has a support body (4) and a reinforcement unit (5) is characterized in that the support body (4) and the reinforcement unit (5 ) are uniformly separated from each other the base body (1) can be assigned.

Description

technical area

The The invention relates to a spring element comprising an elastically deformable Basic body with a receptacle for coupling to a vibratory system, one to the basic body associated support element, wherein the support element the body at least partially stabilized and wherein the support element a support body and having a reinforcing unit.

State of technology

From the DE 101 57 325 A1 as well as the DE 101 24 924 A1 Spring elements of the type mentioned are known. These spring elements are used within the chassis of automobiles. They are used in particular as a vibration damper. The spring elements take on a stop function and characterize the vehicle suspension. The known spring elements have support elements which are designed as support rings. These support elements comprise a support body of thermoplastic material and a reinforcing unit, which is completely embedded in the thermoplastic material. These spring elements have great disadvantages in terms of their production. It is particularly problematic that care must be taken in the production that no voids arise between the interacting components. Once formed cavities prevent the support element can exert its stabilizing effect on the body. In that regard, the generic spring elements are extremely susceptible to interference.

presentation the invention

Of the Invention is based on the object, a spring element of the above Such a way to design and further develop that a ensures optimal operation of the spring element in trouble-free production is.

According to the invention solved above object with the features of claim 1. After that a spring element is characterized in that the support body and the reinforcing unit uniformly separated from each other the base body assignable are.

According to the invention is initially recognized have been that the spring elements of the prior art in terms have great disadvantages on their operability. In In a further step it has finally been recognized that this is accompanied by the design of the support element. Finally is It has been recognized that a separate manufacture of the items of the supporting member and a separate mounting on the body allows arrangement problems individual components of a support element to decouple from each other. In that regard, the task mentioned above solved in a simple way by that each component of the support element so on the body can be adapted to an already existing system that the Stabilizing effect of the support element not questioned.

consequently is with the spring element according to the invention a spring element specified, with which an optimal operation at ensures trouble-free production is.

In a structurally particularly favorable embodiment could the support body directly at the base body abut and the reinforcing unit surround the support body circumferentially. It is conceivable Also, that the reinforcing unit is applied directly to the base body and the support body the Arming unit circumferentially surrounds. In dependence from the materials that make up the reinforcing unit, supporting body and body are manufactured, the order of the arrangement can be selected which benefits the materials is. It is particularly conceivable that such materials directly abut against each other, which in operation a little abrasion to each other cause. It is also conceivable to put such materials together, the slightly adhesive with each other Make bonds. After all is feasible, the stabilizing effect of the support element in terms of their hardness adjust.

The Arming unit could V-, U- or S-shaped be educated. The V or U-shaped Design is advantageous in that the support body between the thighs of the Vs or Us can be recorded and insofar a form-fitting Connection between Armierungseinheit and support body can be done. It is also advantageously feasible, that reinforcing unit and support body against each other are relatively displaceable by the support body within the Armierungsseinheit displaced is arranged. An S-shaped Design is advantageous because the reinforcement unit a very size surface to disposal represents, with the support body frictionally in Intervention can be brought.

The Arming unit could include several elements. By arranging several elements Is it possible, the main body or the support body selectively to force or stabilize at specific points. In that regard, it is conceivable that the support element as such areas which is stronger armored and have areas which are weaker armored. Through this Design is an additional Vibration damping effect achievable in the region of the support element.

Of the body could Having recesses for defined recording of the support element. The precaution of recesses is advantageous in that the support element secured against slipping.

Of the body could formed rotationally symmetrical with an axial passage as a receptacle be. It is conceivable that the body in certain areas Thickenings or dilutions, Having grooves or recesses. The provision of grooves or Recesses possible a secure fixing of the support element against axial slippage or dislocation. This is sure provided that the stabilization of the spring element always at the same place takes place.

In front this background could the support body and the reinforcing unit be rotationally symmetrical and the main body peripherally surround.

The Arming unit could formed spirally be. The spiral Design allows a widening of the reinforcing element in radial direction and thus a simple slipping over an already fixed to the body support body. Furthermore allows a spiral Reinforcement a slight replacement in material fatigue of the Armierungselements.

The Arming unit could ring-shaped be. The annular Design allows a particularly tight fit of the reinforcement unit either on the base body or on the support body. hereby is a particularly stable connection between the components feasible.

The Materials that make up the support body and The reinforcing unit are made, could be more rigid, than the material from which the main body is made. It is particularly conceivable that the individual Materials over different areas of the application of force elastically deformable are. By this specific embodiment, a spring element can be realized, which is selectively adjustable in terms of its rigidity.

The Arming unit could be made of metal. Against this background, it is conceivable that the Arming unit is manufactured as a deep-drawn part. This concrete Design allows a particularly precise production of the reinforcement unit at maximum stability. It is conceivable that the deep-drawn part at least on one side flush with completing the support body. in this connection It is advantageous that the deep-drawn part defines no protrusions, the other Disturbing components in an arrangement.

Of the Supporting body could out be made of a thermoplastic material. Thermoplastics are known and permitted with regard to their material properties insofar problem-free processing. Furthermore, they are corrosion resistant and commercially available in a simple manner. In that regard is through This design achieves a trouble-free production.

Of the body could be made of rubber. Rubber is a highly elastic material, which is very easily deformed and so far a very good vibration isolation can make sure. Completely depending on Measure of Vibration decoupling, the wall thickness of the body can be selected.

It are now different ways to design the teaching of the present invention advantageous and further education. On the one hand to the claim 1 subordinate claims, on the other hand, to the following explanation of preferred embodiments of the invention with reference to the drawing. In connection with the explanation the preferred embodiments The invention with reference to the drawing are also generally preferred Embodiments and developments of the teaching explained.

Brief description of the drawing

In show the drawing:

1 in a sectional drawing a spring element,

2 a spiral reinforcement unit,

3 a sectional view of the support element with U-shaped reinforcement unit,

4 a sectional view of the support member with a V-shaped reinforcing unit,

5 a sectional view of the support element with an S-shaped reinforcing unit,

6 a sectional view of a support member with an annular Armierungseinheit and

7 a sectional view of a support member having an annular reinforcing unit, which comprises two annular elements.

8th a sectional view of a support member with a reinforcing unit, which is designed as a deep-drawn part.

Execution of the invention

1 shows a spring element which a elastically deformable body 1 with a recording 2 for coupling to a vibratory system. The basic body 1 is a support element 3 assigned, which is the basic body 1 at least partially stabilized. The support element 3 has a support body 4 and a reinforcing unit 5 on. The supporting body 4 and the reinforcing unit 5 are uniformly separated from one another and can be assigned to the basic body.

The main body 1 has recesses for defined recording of the support element 3 on. The main body 1 is rotationally symmetrical and has a receptacle 2 an axial passage. the support body 4 and the reinforcing unit 5 are rotationally symmetrical and surround the body 1 extensively.

The supporting body 4 is located directly on the body 1 on and the reinforcing unit 5 surrounds the support body 4 extensively.

2 shows a reinforcing unit 5 , which is formed spirally.

3 shows a sectional view of a support element 3 in which the reinforcing unit 5 U-shaped.

4 shows a support element 3 in which the reinforcing unit 5 V-shaped and directly on the body 1 is applied, wherein the support body 4 the reinforcement unit 5 surrounds circumferentially.

5 shows a support element 3 with a reinforcing unit 5 which is S-shaped as a deep-drawn part.

6 shows a support element 3 with a reinforcing unit 5 , which is annular.

7 shows a support element 3 , wherein the reinforcing unit 5 comprises two annular elements.

8th shows a support element 3 with a reinforcing unit 5 , which is S-shaped as a deep-drawn part and flush with the support body 4 concludes. The reinforcing unit partially surrounds the support body so that it acts as an edge.

Regarding further advantageous embodiments and developments of the teaching of the invention on the one hand to the general part of the description and on the other hand to the attached claims.

In conclusion, be particularly emphasized that the previously purely arbitrarily chosen embodiments for discussion only the teaching of the invention serve, but do not limit these to these embodiments.

Claims (16)

Spring element comprising an elastically deformable body ( 1 ) with a recording ( 2 ) for coupling to a vibratory system, the basic body ( 1 ) associated support element ( 3 ), wherein the support element ( 3 ) the basic body ( 1 ) is at least partially stabilized and wherein the support element ( 3 ) a support body ( 4 ) and a reinforcing unit ( 5 ), characterized in that the supporting body ( 4 ) and the reinforcing unit ( 5 ) uniformly separated from each other the main body ( 1 ) are assignable. Spring element according to claim 1, characterized in that the supporting body ( 4 ) directly on the base body ( 1 ) and the reinforcing unit ( 5 ) the supporting body ( 4 ) surrounds circumferentially. Spring element according to claim 1, characterized in that the reinforcing unit ( 5 ) directly on the base body ( 1 ) and the supporting body ( 4 ) the reinforcing unit ( 5 ) surrounds circumferentially. Spring element according to one of claims 1 to 3, characterized in that the reinforcing unit ( 5 ) Is V- or U-shaped. Spring element according to one of claims 1 to 3, characterized in that the reinforcing unit ( 5 ) Is S-shaped. Spring element according to one of claims 1 to 5, characterized in that the reinforcing unit ( 5 ) comprises several elements. Spring element according to one of claims 1 to 6, characterized in that the basic body ( 1 ) Recesses for defined recording of the support element ( 3 ) having. Spring element according to one of claims 1 to 7, characterized in that the basic body ( 1 ) rotationally symmetrical with an axial passage as a receptacle ( 2 ) is trained. Spring element according to claim 8, characterized in that the supporting body ( 4 ) and the reinforcing unit ( 5 ) are rotationally symmetrical and the main body ( 1 ) surrounded circumferentially. Spring element according to claim 9, characterized in that the reinforcing unit ( 5 ) is formed spirally. Spring element according to claim 9, characterized in that the reinforcing unit ( 5 ) ringför mig is formed. Spring element according to one of claims 1 to 11, characterized in that the materials from which the supporting body ( 4 ) and the reinforcing unit ( 5 ), are more rigid than the material from which the body ( 1 ) is made. Spring element according to one of claims 1 to 12, characterized in that the reinforcing unit ( 5 ) is made of metal. Spring element according to one of claims 1 to 13, characterized in that the reinforcing unit ( 5 ) is manufactured as a deep-drawn part. Spring element according to one of claims 1 to 14, characterized in that the supporting body ( 4 ) is made of a thermoplastic material. Spring element according to one of claims 1 to 15, characterized in that the basic body ( 1 ) is made of rubber.